RU2611872C2 - Illuminating pyrotechnic composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: illuminating pyrotechnic composition comprises, by wt %: barium nitrate 40-50, magnesium powder 40-43, PTFE as a flame colouring oxidizing agent 3-5, resin in drying oil as the organic combustible binder 2-4, and additional gas-forming substances: magnesium carbonate 3-5 and thiourea 2-3.

EFFECT: burning of the pyrotechnic composition proceeds with the increased speed and provides high radiation brightness in the visible spectrum of the generated cloud glowing with white colour for a long time, while reducing production costs.

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Description

The invention relates to pyrotechnics, and more particularly to lighting compositions, including nitrates of alkali and alkaline earth metals.

The level of this technical field is characterized by the pyrotechnic lighting composition described in A.A. Shidlovsky Fundamentals of Pyrotechnics, M., "Mechanical Engineering", 1973, p. 149, the composition No. 20, which, according to the technical nature and the number of matching features, is selected as the closest analogue.

Known lighting pyrotechnic composition contains barium nitrate (oxidizing agent), magnesium powder (metallic fuel), strontium nitrate, an additional oxidizing agent and organic fuel binder - linseed oil, in the following ratio, wt. %:

barium nitrate 38 magnesium powder 52 strontium nitrate 7 linseed oil 3

A disadvantage of the known composition is the unsatisfactory light intensity of the flame due to the fact that part of the thermal energy of the combustion is lost due to the interference of different radiation frequencies of strontium (red) and barium (green), providing a shift of the spectrum towards bright tones.

In addition, strontium nitrate is a scarce imported material.

The technical problem to which the present invention is directed is to increase the luminous intensity of the flame that accompanies burning at an increased speed of a modernized pyrotechnic composition used as a lighting means in which import substitution is provided for domestic available components.

The required technical result is achieved by the fact that the known lighting pyrotechnic composition, including barium nitrate, magnetic powder, a flame-oxidizing oxidizing agent and an organic combustible binder, according to the invention contains fluoroplastic as a color-flame substance, and a 25% solution of rosin in drying oil as an organic combustible binder and additionally gas-forming magnesium carbonate and thiourea, in the following ratio of components, wt. %:

barium nitrate 40-50 magnesium powder 40-43 ftoroplast 3-5 magnesium carbonate 3-5 25% rosin solution in olif 2-4 thiourea 2-3

Distinctive features of the proposed technical solution have provided an increase in the efficiency of the main action of the lighting pyrotechnic composition for its intended purpose, ensuring the brightness of the radiation in the visible range of the spectrum for a long time, with a noticeable reduction in the cost of production.

When developing the present invention, fluorine-containing polymers used in the industry for this purpose were tested - fluoroplastics such as polytetrafluoroethylene, which showed comparable chemical activity to increase the temperature and burning rate of a pyrotechnic lighting charge, providing the necessary emission spectrum of gas-forming combustion products and light intensity.

In this case, mainly natural drying oils based on linseed or hemp oil were tested, which ensured good wettability of the powdery components of the composition.

The use of polytetrafluoroethylene (fluoroplastic) in the lighting pyrotechnic composition as an oxidizing agent that corrects the spectrum of the radiation of a flame when a charge is burned from it in the visible range, in terms of light tones, increases the charge burning rate with a characteristic increase in the incandescent solid particles of the generated aerodispersed phase.

In the interaction of polytetrafluoroethylene (fluoroplastic) with a metal combustible composition, emitting magnesium fluoride (MgF ₂ ) is formed, which helps to increase the total light intensity of the flame.

Carbon dioxide magnesium and thiourea gas generators perform additional functions, respectively: the yield of the dispersed white phase is increased and the composition is activated, reducing the formation time of the emitting aerodisperse formation.

The introduction of natural carbonic magnesium into the pyrotechnic composition increases gas formation, which accelerates the removal and dispersion of the particles emitting in the visible range of the spectrum generated by the combustion of a charge into the gas aerosol phase.

In this case, magnesium oxide (MgO) is formed, coloring the flame with pure white color, diluting and neutralizing the green color formed during the combustion of barium nitrate.

Sulfur-containing thiourea provided the activation of ignition and combustion of the pyrotechnic composition of lighting charges, while the released free sulfur, interacting with metals, forms an additional dispersed phase emitting in the visible range of the spectrum.

During combustion, thiourea additionally emits a large amount of gases (H ₂ S, NH ₃ , CS ₂ , NH ₂ , CN, etc.), which increases the dynamics of the formation of the aerodispersive formation emitting in the visible range, the effect of which on the illumination of the area significantly increased.

A 25% solution of gum rosin in oil oliph is an organic combustible binder, preferred for use in an optimized pyrotechnic composition, which is prepared from industrially produced substances, available and relatively cheap, ensuring the safety of the manufacturing process for manufacturing the lighting composition and when the torch is functioning from it.

When the content in the lighting pyrotechnic composition of barium nitrate is less than 40 wt. % the specified emission spectrum of gas aerosol formation is not achieved due to the lack of burning rate of the thermal base.

When the content in the pyrotechnic composition of barium nitrate is more than 50 wt.%, The luminosity of the combustion products occurs mainly in the green region of the radiation spectrum, which does not meet the requirements for the quality of functioning of the pyrocomposition as intended.

When the content of magnesium powder in the lighting pyrotechnic composition is more than 43 wt.%, The luminescence time of gas-aerosol formation is reduced due to the excessive burning rate, which is especially true for small-sized flares.

When the content in the lighting pyrotechnic composition of magnesium powder is less than 40 wt. % decreases the brightness of the white flame due to the lack of calorific value and the developed temperature of the combustion of charges.

When the fluoroplastic content in the lighting pyrotechnic composition is less than 3 wt.%, The burning rate of its thermal base decreases and the structural characteristics of the flame radiation deteriorate.

When the fluoroplastic content in the pyrotechnic composition of the fluoroplastic is more than 5 wt.%, There is no noticeable activity of the combustion of the thermal base and the associated qualitative indicators of the glow.

When the content of magnesium carbon dioxide in the lighting pyrotechnic composition is less than 3 wt.%, Gas formation (CO ₂ ) decreases, impairing the transfer of solid emitting particles (MgO) into the dispersed phase of the flame, resulting in a decrease in the luminescence of the flame.

When the content of magnesium carbonate in the pyrotechnic composition is more than 5 wt.%, Gas generation increases, which noticeably dilutes the emitted aerodispersion generated during charge burning, as a result of which the light intensity decreases, that is, the charge functionality from the lighting composition decreases.

When the content of thiourea in the lighting pyrotechnic composition is less than 2 wt.%, The rate of burning of the charges sharply decreases, decreasing the speed of generation of the emitting aerodisperse formation, and its removal is slowed down due to a drop in gas generation, i.e., the volume of the working fluid transporting the dispersed phase to the atmosphere decreases.

The content of thiourea in the lighting pyrotechnic composition of more than 3 wt.% Is ballast, since there is no increase in the combustion efficiency of the thermal basis of the composition and the rate of removal of emitting solid particles.

When the content in the lighting pyrotechnic composition of a 25% solution of rosin in drying oil is less than 2 wt.%, The necessary technological properties are not ensured (uniform distribution of the components during mixing, compressibility of the composition into strong charges).

When the content in the lighting pyrotechnic composition of a 25% solution of rosin in drying oil is more than 4 wt.%, There is no further improvement of technological characteristics.

The introduction into the structure of the proposed lighting composition of a 25% solution of rosin in drying oil increases the flammability of charges, during the combustion of which the organic combustible binder completely thermally decomposes, while increasing gas generation and the glow of the generated functional cloud, which provides illumination of a larger surface.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new effect of the sum of the attributes.

The proposed lighting composition is made in any industrial mixer of pyrotechnic production, into which all powder components are loaded in the ratio (wt.%): 45.5 ± 5 barium nitrate, 41.5 ± 1.5 magnesium powder, 4 ± 1 polytetrafluoroethylene (fluoroplastic) , 4 ± 1 magnesium carbonate and 3 ± 1 thiourea, which are mixed for 7-10 minutes.

Then, 2.5 ± 0.5 of a previously prepared 25% solution of gum rosin in oil olif is added to the mixer and mixed for 10-15 minutes until the components are distributed evenly in the mixture.

The prepared plasticized pyrotechnic mixture is directed to pressing charges and torches.

The quantitative ratio of the components of the proposed lighting pyrotechnic composition was calculated according to the mathematical model of the experimental design and confirmed by the experimental results of the fire test of the functioning of the charges for the intended purpose, which showed the achievement of improved indicators for the maximum light intensity of the aerodispersed formation during the combustion of charges, the components of which are contained within the selected ranges.

The table shows the characteristic compositions of the tested charges, in which the components are within the declared ranges, at its borders and beyond the boundaries of the optimized content ranges.

Tests showed good flammability and stable burning of charges from compositions 2-4 at a speed of 1.5-2.0 mm / s, while a bright white glowing cloud is generated generated cloud for a specified time.

The compacted charge from composition 1 burns at a reduced speed of 0.6 mm / s, the force of the flame of which forms light radiation, which is characterized by an unsatisfactory spectrum.

The charge from composition 5 crumbles, parts of which burn stably, but the ignition is difficult and the luminescence time of the gas-aerosol formation of a green tint is reduced by a third of the set value.

Comparison of the proposed technical solution with published analogues of the prior art did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences in the lighting composition, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in pyrotechnics.

The production of lighting pyrotechnic composition and torches from it can be carried out at the existing production site using proven technology.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

The positive results of fire tests of prototypes of the proposed composition, which actually confirmed the effectiveness of the formation of a stable cloud emitting a bright white color, make it possible to recommend it for mass production for delivery to customers.

Claims (2)

Lighting pyrotechnic composition, including barium nitrate, magnesium powder, a flame-oxidizing oxidizing substance and an organic combustible binder, characterized in that it contains fluoroplastic as a color-flame substance, a 25% solution of rosin in oliph, and additionally gas-forming magnesium carbonate and thiourea as an organic combustible binder , in the following ratio of components, wt.%: barium nitrate 40-50 magnesium powder 40-43 ftoroplast 3-5 magnesium carbonate 3-5 rosin solution in drying oil 2-4 thiourea 2-3